Hardware Reference
In-Depth Information
20. Abuelma
atti MT, Tasadduq NA (1999) Electronically tunable capacitance multiplier and
frequency-dependent negative-resistor simulator using the current-controlled current con-
veyor. Microelectron J 30:869-873
21. Yuce E, Minaei S (2008) Electronically tunable simulated transformer and its application to
stagger-tuned filter. IEEE Trans Instrum Meas 57:2083-2088
22. Parveen T, Ahmed MT, Khan IA (2009) A canonical voltage-mode universal CCCII-C filter.
J Active Passive Electron Devices 4:7-12
23. Ranjan A, Paul SK (2011) Voltage mode universal biquad using CCCII. Active Passive
Electron Comp 2011:1-5, ID 439052
24. Altuntas E, Toker A (2002) Realization of voltage and current mode KHN biquads using
CCCIIs. Int J Electron Commun(AEU) 56:45-49
25. Wang C, Liu H, Zhao Y (2008) A new current mode current controlled universal filter based
on CCCII(
). Circ Syst Sig Process 27:673-682
26. Senani R, Singh VK, Singh AK, Bhaskar DR (2004) Novel electronically controllable
current-mode universal biquad filter. IEICE Electron Express 1:410-415
27. Chen HP, Chu PL (2009) Versatile universal electronically tunable current-mode filter using
CCCIIs. IEICE Electron Express 6:122-128
28. Maheshwari S, Khan IA (2004) Novel cascadable current-mode translinear-C universal filter.
Active Passive Electron Comp 27:215-218
29. Yuce E (2009) Current-mode electronically tunable biquadratic filters consisting of only
CCCIIs and grounded capacitors. Microelectron J 40:1719-1725
30. Abuelma
'
atti MT (2003) A novel mixed mode current controlled current conveyor based
filter. Active Passive Electron Comp 26:185-191
31. Ozoguz S, Toker A (2002) Tunable ladder-type realization of current mode elliptic filters. Int
J Electron Commun 56:193-199
32. Jiraseree-amornkun A, Surakampontorn W (2008) Efficient implementation of tunable ladder
filters using multi-output current controlled conveyors. Int J Electron Commun 62:11-23
33. Yuce E, Minaei S (2008) On the realization of high-order current mode filter employing
current controlled conveyors. Comput Electr Eng 34:165-172
34. Koksal M, Sagbas M (2008) A versatile signal flow graph realization of a general current
transfer function. Int J Electron Commun 62:33-40
35. Ranjan A, Paul SK (2011) Nth order voltage mode active-C filter employing current con-
trolled current conveyors. Circ Syst 2:85-90
36. Liu SI, Yang CY (1996) Higher-order immittance function synthesis using CCIIIs. Electron
Lett 32:2295-2296
37. Horng JW (2001) A sinusoidal oscillator using current-controlled current conveyors. Int J
Electron 88:659-664
38. Fongsamut C, Anuntahirunrat K, Kumwachara K, Surakampontorn W (2006) Current
conveyor-based single element controlled and current controlled sinusoidal oscillators. Int J
Electron 93:467-478
39. Kiranon W, Kesorn J, Wardkein P (1996) Current controlled oscillator based on translinear
conveyors. Electron Lett 32:1330-1331
40. Abuelma
'
atti MT, Tasadduq NA (1998) A novel current controlled oscillator using
translinear current conveyor. Frequenz 52:123-124
41. Maheshwari S (2010) Current mode third order quadrature oscillator. IET Circ Devices Syst
4:188-195
42. Erdal C, Kuntman H, Kafali S (2004) A current controlled conveyor based proportional-
integral-derivative (PID) controller. J Electr Electron Engg 4:1243-1248
43. Maheshwari S, Khan IA (2005) An integrable precision rectifier with current controlled
output. J Active Passive Electron Devices 1:177-182
44. Anuntahirunrat K, Tangsrirat W, Riewruja V, Surakampontorn W (2004) Sinusoidal fre-
quency doubler and full-wave rectifier based on translinear current-controlled current con-
veyors. Int J Electron 91:227-239
'
Search WWH ::
Custom Search